View clinical trials related to Critical Illness.
Filter by:Feasibility study of the use of an interactive Virtual Reality device in rehabilitation of critically ill patients on the Intensive Care Unit. Patients will use the upper limb muscles and memory playing the 2 games in our "MotiVeeR UZeLf"-app. This will be the case 3x/week as part of the conventional rehabilitation program.
Hypotheses 1a and 1b: Compared to Supportive Conversation arm, the EMPOWER intervention will significantly decrease surrogate decision makers' symptoms of grief and Post Traumatic Stress Disorder (PTSD) (primary outcomes); and H1b. experiential avoidance, depression, regrets, and increases in patients' value-concordant care (secondary outcomes) at T1-T4. Hypothesis 2. Qualitative data will provide insights not captured by quantitative data. Hypothesis 3. Reductions in experiential avoidance will mediate reductions in grief and Post Traumatic Stress Disorder (PTSD) symptoms, highlighting it as important to target in future implementation.
Survivors of critical illness commonly experience long-lasting cognitive, mental health and physical impairments. Clinically significant symptoms of anxiety, depression, and post-traumatic stress disorder (PTSD) may occur in 40%, 34% and 20% of ICU survivors respectively, compared to 6%, 8% and 4% in the general population. These symptoms can persist for more than 8 years. Evidence shows the existence of a two-way, communication network between gut microbes and the brain referred to as the gut-brain axis. Changes in the microbiome and dysregulation of this communication network in relatively healthy people is associated with cognitive dysfunction and mood disorders such as anxiety and depression. The physiological stress associated with critical illness itself and many ICU interventions including the use of mechanical ventilation and medications such as antibiotics, antacids, vasopressors, and steroids can influence the balance of the gut microbiome and associated metabolites. This observation study aims to: 1. Quantify and measure dynamic changes in the gut microbiome and its metabolites during critical illness and recovery. 2. Explore the associations between microbiome and metabolomic changes during critical illness and psychological symptoms in the patient during their recovery. This knowledge will provide the potential to create interventions that alter the gut environment and microbiome both during and following a critical illness in order to reduce long-term adverse psychological effects. Examples of such potential interventions include dietary modifications with the use of prebiotics or probiotics.
Capillary refill time is the time it takes for the skin to regain its initial colour after moderate pressure. It is usually performed on the patient index finger, middle finger or ring finger with the examiner's thumb and index finger for five seconds, three measurements having to be averaged. Capillary refill time has a dependent operator character, but it has been shown to be accurately correlated with 14-day mortality in septic shock, hospitalisation need in pediatric population. The purpose of this project is to show that capillary refill time obtained by a video-assisted method has a better inter- and intra-observer reproducibility than capillary refill time obtained by a visual method.
The aim of the study is to detect a value of muscle and organ mass measured by body impedance analysis and its correlation with the Medical Research Council (MRC) score. An MRC score ≤ 48 is defined as a diagnosis of ICU acquired weakness. The correlation of the values detected by BIA and their transfer to an MRC Score ≤ 48 will be investigated. The knowledge gained will be used for early detection of ICUAW in order to reduce the consequences of the same.
Point-of-care ultrasound (PoCUS) is a rapidly evolving method of clinical assessment within the intensive care unit (ICU) with training predominantly aimed at physicians. Routine whole-body PoCUS (lungs, heart, abdomen and blood vessels) when conducted by physicians benefits patient care and outcomes including reducing the risk of prolonged ICU stay (>7 days) and mechanical ventilation as well as reducing utilisation of other diagnostic tests. However, physician-only use of PoCUS does not allow for use as a routine assessment method in the ICU due to the low physician to patient ratio and poor ultrasound accreditation rate. Providing other healthcare professionals such as Advanced Critical Care Practitioners (ACCPs), ICU nurses and physiotherapists with PoCUS skills increases the proportion of trained staff to perform routine PoCUS in the ICU. This could aid earlier identification of abnormal pathology, earlier treatment, and prevent patient deterioration. The advancement of handheld PoCUS technology is making ultrasound more portable, cheaper and easier to use. The increased accessibility of PoCUS combined with growing evidence of its diagnostic accuracy compared to other modes of imaging means PoCUS use is gaining traction globally. However, little to no research exists investigating the feasibility of implementing scheduled interprofessional PoCUS in the ICU and its impact on patient outcomes. This study aims to evaluate the acceptability and feasibility of a quick and simple whole body ultrasound scan performed by trained ACCPs, ICU nurses, physiotherapists, and doctors at set time points throughout the patients ICU stay. The investigators want to find out the most common barriers and facilitators to intervention implementation and to explore the key clinical outcomes for use in a future definitive RCT.
In the previous investigation, investigators found that when the risk factors of stress injury in critical patients changed, clinical nurses lacked the awareness of evaluating the risk of stress injury, and lacked the risk assessment of this link. The stress risk prediction model is based on etiology. By analyzing the risk factors, the machine learning algorithm is used to evaluate the risk of pressure damage, and the prediction model of pressure damage can dynamically and comprehensively evaluate its risk. It is also a risk assessment tool. At present, there is no research on applying the stress injury risk prediction model of critical patients to the intensive care information software in China. In this study, the artificial intelligence algorithm library will be used to construct and apply the stress injury risk prediction model for critical patients.
Landmark trials in critical care have demonstrated that, among critically ill adults receiving invasive mechanical ventilation, the use of low tidal volumes and low airway pressures prevents lung injury and improves patient outcomes. Limited evidence, however, informs the best method of mechanical ventilation to achieve these targets. To provide mechanical ventilation, clinicians must choose between modes of ventilation that directly control tidal volumes ("volume control"), modes that directly control the inspiratory airway pressure ("pressure control"), and modes that are hybrids ("adaptive pressure control"). Whether the choice of the mode used to target low tidal volumes and low inspiratory plateau pressures affects clinical outcomes for critically ill adults receiving mechanical ventilation is unknown. All three modes of mechanical ventilation are commonly used in clinical practice. A large, multicenter randomized trial comparing available modes of mechanical ventilation is needed to understand the effect of each mode on clinical outcomes. The investigators propose a 9-month cluster-randomized cluster-crossover pilot trial evaluating the feasibility of comparing three modes (volume control, pressure control, and adaptive pressure control) for mechanically ventilated ICU patients with regard to the outcome of days alive and free of invasive mechanical ventilation.
To assess the effects of dapagliflozin on a composite hierarchical endpoint in critically ill patients.
A randomized non-inferior trial comparing remimazolam besylate with propofol for long-term sedation during invasive mechanical ventilation in critically ill patients